SU1024787A1 - Gear transmission dynamic characteristic dynamic stand - Google Patents

Abstract

1. STAND FOR THE RESEARCH OF DYNAMIC CHARACTERISTICS OF TRANSMISSION TEXAS, a software package, housed in it with the ability to rotate the leading and BeAoMbrit spindles, designated for installing test gears, kinematically associated with the spindles, drive and load. transform and displacements, the axis of sensitivity of each perpendicular to the axis of one of the spindles, from the fact that, in order to expand technological capabilities in the study of Also, flexible-coupled transmissions, each converter is made in the form of a Hall sensor, the magnetic systems of which are connected to one of the spindles for gears and from the housing for flexible-coupled transmissions, and the semiconductor crystal carrier corresponds to a housing for gears and with a spindle for flexible couplings. 2. The stand according to claim 1, of which is, in order to improve the measurement accuracy during the test (L gearing, it is equipped with an Eubtsovy frequency converter connected to the amplifying recording equipment, and Semiconductor crystal steels are also installed perpendicularly - ",." to the plane of teeth engagement. W P

Description

The invention relates to general mass engineering, namely to test technology, and can be used to study the dynamics of gears and transmissions with flexible couplings.

A stand for examining objects in dynamics is known, containing a source-stroboscopic pulses, designed to illuminate the objects under study, for example spindles with test gears or flexible coupling gears, and a displacement transducer, for example, an optical-device intended for measuring beating spins. . The corresponding stencil spindle is illuminated in the process of examining stroboscopic pulses with a frequency of twice the spindle rotation frequency, the spindle is fixed, and the magnitude of the double deflection and double thrust of the spindle is determined. optical device

The disadvantage of this device is the low accuracy in measuring spindle deformations.

The closest to the invention in technical essence and the achieved positive effect is a stand for studying dynamic characteristics. gears from gears, comprising a housing, pivoted therein, with the possibility of rotation of a master and a slave. spindles, intended for mounting the tested gears, a kinematically connected drive and. loader, amplifier-. but registering apparat.ru, and the converters connected to it mixing, the sensitivity axis of each of which is perpendicular to the axis of one of the spindles. The displacement transducers are made mechanical and have measuring tips 2.

. A disadvantage of the known test bench lies in the low accuracy of measurements in the study of gears and the impossibility of studying the dynamic characteristics of gears with a flexible connection. .

I.-.-,

The aim of the invention is to expand the technological capabilities of researching gears with flexible coupling and to improve measurement accuracy in the study of gear transmissions.

This goal is achieved by the fact that in the test bench, the NH4ecKHx characteristics of gear gears, comprising a case, the driving and driven spindles arranged for the installation of the tested gears, kinematically connected with the spindles drive and loader, /

amplifying recording equipment and displacement transducers connected to it, the axis of sensitivity of each of which is perpendicular to the axis of one of the spindles. Each transducer is designed as a Hall sensor, the magnetic system of which is connected to one of the spindles for gears and the housing for the transmissions with flexible coupling, and the carrier of semiconductor crystals, respectively, for the gear housing, and with the spindle for transmissions with flexible coupling .

In addition, a stand with an abbot is a tine frequency transducer connected to the amplifying recording equipment, and a semiconductor chip is also installed perpendicular to the plane of the teeth zinging .. ..

FIG. 1 is a schematic diagram of the device; in fig. 2 shows the installation of carriers with semiconductor crystals of a displacement transducer in the plane, tiepneral to the axial rotation of the spindles in FIG. 3 — a converter for measuring transverse displacements of the spy-force under the action of variables in magnitude and direction of the frictional forces arising in the zone of engagement of the teeth of the wheels; in fig. 4 is a transducer for measuring spindle deformations due to the tension of a flexible coupling of the transmission under study.

The stand includes a housing 1, a drive 2, a master 3, and a slave 4 spindles for mounting wheels 5 and b, a loading device 7 with a torsion meter 8 braking torque converter 9 of prong frequency, transducers 10 and 11 displacements (in Fig. 1 carriers of semiconductor crystal sf converters 10 and 11 are shown rotated in the plane of the devils a), a current collection device 12 and an amplifying register an-j

-laray (not shown),

 Each displacement transducer (Fig. 2) is made in the form of a Hall sensor containing the carrier 13. With semiconductor crystals 14. and 15 and a magnetic system 16.

The carrier 13 of the SEMI-1F0VODNIKOVY crystals 14 and 15 is made in the form of a disk 17 with an indent of 18 s. two brackets 19 and 20 diametrically located along its periphery parallel to the axis of rotation of the L-shaped form

The carrier 13, for example, in the case of studying gears, is mounted on the body of the stand coaxially with the corresponding spindle 3 (4) with the possibility of rotation around its axis when adjusted to an angle ensuring the perpendicularity of the diametrical section of the arrangement of the semiconductor crystals 14 to the 15 plane of wheel engagement 5 and 6 transfer. The carrier 13 is equipped with a fixing device 21 and a nonius 22 fixed to; outer cylindrical surface of the hub 18. On the outer cylindrical surface of the body 1 of the stand, coaxial with the spindle, a circular dial is mounted.23. Semiconductor crystals, 14 and 15 deposited on a surface | The brackets 19 and 20 of the carrier 1 are perpendicular to the rotation of the spins of the cases, symmetrically to this axis. The magnetic system 16 of each preformed displacement is made in the form of two concentrically arranged annular permanent magnets 24 and 25 with opposite polarity on the same end planes installed, for example, in the case of studying gears, on the corresponding spindle 3 or 4c. a ring 26 of the non-magnetic material and the ring 27 separated by the same of the non-magnetic material. The inner magnet is 25 dpinnable than the outer 24. The washers 28-31 of magnesium are attached to the ends of the ring magnets 24 and 25 Foot materigshe. The outer diameters of the inner washers 28 and 29 are smaller than the outer diameters of the outer washers 30 and 31. Cone-shaped rings made of magnetic material with a triangular cross section, symmetrical with respect to (medium-plane of the ring magnets 24 and 25, perpendicular to the axis, Sprays 3 or 4 are mounted to the outer washers 30 and 31, the cone-shaped rings 34 and 35 are attached to the base. To the inner washers 28 and 29, the cone-shaped rings 32 and 33 are attached to the small bases. function of the conical ring tips of the magnetic system of 16 transducers 10 and 11. With such a constructive design, they transform in the axial plane of the like two letters X, semiconductor crystals 14 and 15 are located in the centers of the S ix symmetrically conical ring rings 32-35 of the magnetic system The adopted design of the magnetic system makes it possible to obtain the maximum sensitivity of converters 10 and 11. displacements. In order to further increase the sensitivity of the entire measuring system, semiconductor crystals 14 and 15 of transducers 10 and 11 are included in the shoulders of measuring bridges (not shown). To make it possible to measure the deformations of spindles under the action of variables on non-; The shape and direction of the friction forces arising in the zone of engagement of the teeth of the wheels 5 and 6 of the test gear, the carrier 13 of semiconductor crystals 14. and 15 of each displacement transducer are set by turning the spindles 3 or 4 around the axis of rotation, where passing through the axes of symmetry of two semiconductor crystals 14 and 15, perpendicular to the plane of engagement corresponding to a given direction of rotation of the wheels 5 and b. the angle of rotation of the carrier 13 of semi-transistors to the drivers 14 and 15 can be realized on a scale of 23 with a nonius 22 fixed respectively on the stand body 1 and on the hub 18 of the carrier 13 along trimmer crystals 14 and 15. With an increase in the accuracy of measurements of the spindles in case 1 OH area reliance 36 of each spindle 3 and 4 and. In the installation zone of the carrier 13 1 "semiconductor crystals 14 and 15, according to the use of the transducers 10 and 11 {P1pc1011, a ring gauge chamber 37 is made to the width of the hub 18 of the carrier 1E, which reduces the effect. defrmation oijcp 36 of each spindle 3 and 4 ya its measurement accuracy by the layer.;: -: l; „/ ...-. . sland works as follows. a; 1) ssndel x 3 and 4 set the wheels 5 6 test transmission. G m “imaginary clearance in relation to the periphery of the gear ring of the drive shaft 5 install transducer frequency gear 9. From the parameters and directions of rotation of the gears 5 and 6 of the test gear relative to spindles 3 and 4, the carriers 13 of the semiconductor crystals 14 and 15 of the displacement converters 10 and 11 are exposed. .Include drive 2 of stand and amplifying register-, RIRING equipment. The stand outputs the required mode of operation, together with the transfer and the required load and rotational speed. During the transfer operation, variable in magnitude and direction of friction forces arise in the teeth engagement zones in the process. The effect of these forces is perpendicular to the plane of engagement and is the cause of the deformation of spindles 3 and 4 in the direction perpendicular to the axis of rotation. As a result of periodic transverse oscillations of spindles 3. and 4, the position of the o-ring conical tips (conical rings 32-35) of magnetic systems 16 relative to carriers 13 with semiconductor crystals 14 and 15 of converters 10 and 11 and, consequently, periodically changes level of electrical signals taken from these converters. Snapshots with a convertible, projectors 10 and 11 on a djiieicT-j ron o-amp and register & apo. gshpaturu.

To obtain the possibility of carrying out research on the study of the deformations of spindles 3 and 4 under the action of tension forces of flexible links in gears with flexible links, also use-; The described converters tO of the 10 and 11 are displaced with a change in the relative pressure of the carrier 13 and the magnetic system 16. Use this case, the carriers 13 of the semiconductor crystals 14 and 15 are attached to the spindle x 3 and 4 of the stand and magnetic systems 16 on the case 1 of the wall-i and with the fulfillment of all the stated requirements with respect to the semiconductor chips 15 m relative to the ring Koneychesk1Sh 32-35 magnetic systems 16 and the magnetic systems 16 relative to spindles 3 and 4.

In this case, the work of stand jj under the action of the tension of the flexible coupling of the tested gear causes deformation of spindles 3 and 4. With a change in the tension of the flexible coupling, the magnitude of the wedging angle of the VEDUZHICH and vedof1x transmission links changes, the direction and magnitude of the re-, the results of reactions in the supports of spindles 3 and 4 and, consequently, their deformation and position change

iee extrema. The carriers 13 of semiconducting crystals 14 and 15, which will be rigidly connected to spindles 3 and 4, continuously copy the position of the latter relative to the housing 1 of the stand in accordance with the transverse deformations and changes of spindles 3 and 4. As a result, The position of the semiconductor crystals 14 and 15 is changed relative to the annular conical tips 32-35 of fixed magnetic systems 4 1 € converters 10 and 11 and, therefore, continuously changes. signals taken from the transmitter 10 and 11 movements. The signals. From the converters 10 and 11 through the collector device 12 are fed to the amplification and the registriructive anq.

Such a stand design makes it possible to increase its reliability and simultaneously the accuracy and stability of measurements of periodic transverse movements under the influence of variables in magnitude and direction {1; 9 train forces arising in the gearing zones of the teeth of the wheels of the tested gears, and also ensures the removal of similar gears dynamic characteristics: for transmissions with flexible ones. HFERE51MI and, thus, to expand its technological capabilities in the study of also transmissions with flexible coupling. .

f9

tt

M

20

Claims (2)

1. STAND FOR RESEARCH OF DYNAMIC CHARACTERISTICS OF GEAR GEARS, comprising a housing, rotatable master and driven spindles, designed for installing gears, kinematically connected to the spindles, a drive and a load amplifier-recording apparatus. ru and connected to the motion disks, the transducer of the sensitivity axis of each of which is perpendicular to the axis of one of the spindles, is also distinguished by the fact that, in order to expand technological capabilities in the study of also gears with flexible coupling, each converter is made in the form of a Hall sensor whose magnetic system is connected to one of the spindles for gears and with the housing for gears with flexible coupling, and the carrier of semiconductor crystals, respectively, with the housing for gears and with the spindle for gears flexible feeder. 2. Stand by π. 1, hell and hell. in order to increase the accuracy of measurements in the study of gears, it is equipped with a Zubzed frequency converter connected to amplifying-recording equipment, and the carrier of semi-solid water crystals is also installed perpendicular to the tooth engagement plane. 1, No. m Q0 I